Extension table with flexible top



Jan. 2, 1951 A. MEGIES EXTENSION TABLE WiTH FLEXIBLE TOP Filed June 27, 1946 10 Sheets-Sheet 1 Z W nW a n R A 9 3 J 1951 A. MEGIES 2,536,511

EXTENSION TABLE WITH FLEXIBLE TOP Filed June 27, 1946 g q Fig. 4.

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Jan. 2, 1951 A. MEGIES EXTENSION TABLE WITH FLEXIBLE TOP Filed June 27, 1946 l0 Sheets-Sheet 4 fin enter 49m? Mia/Es Afdarneyw Jan. 2, 1951 E 2,536,511

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Jan. 2, 1951 E5 2,536,511

EXTENSION TABLE WITH FLEXIBLE Toi Filed June 27, 1946 10 Sheets-Sheet l0 Patented Jan. 2, 1951 UNITED STATES PATENT OFFICE In France February 7, 1939 Section 1, Public Law 690, August 8, 1946 Patent expires February 7, 1959 4 Claims.

This invention relates to a table having an extensible top, to which various forms and dimensions may be given, and wherein the table top in changing from a given form and set of dimensions to another form and set of dimensions passes continuously through the intermediate forms and dimensions.

A table constructed according to the invention includes a rigid central top portion supported by legs, which may be adjustable to vary the height of the table top, and an outer top portion formed of radially movable elements surrounding the rigid central portion and so constructed as to permit varying of the form and dimensions of the periphery of the table top.

An object of this invention is to provide a table of the character described including mechanical means for varying the form and dimensions of the marginal edges of the top thereof.

A further object is to provide an extensible table of the type described including a top formed of an indeformable central portion and an annular portion surrounding the central portion formed of radially movable elements, and actuating means for the radially movable elements so, constructed as to position the latter for obtaining a table top having any selected one of a plurality of varying forms and dimensions.

Other objects, features and advantages of the invention will appear in the following detailed description of preferred embodiments of the invention which are illustrated in the accompanying drawings.

, In the drawings:

Figure 1 is a side elevational view of a table constructed according to the invention, with the top retracted and having a circular form, two of the supporting legs being broken away to show their internal structure, and with the legs in raised position;

Figure 2 is a fragmentary top plan view of the table top of Figure 1;

Figure 8 is a detail view, on an enlarged scale, of a portion of the girdle or marginal edge structure of the top of the table in Figure 1;

Figure 4 is a side elevational view, similar to that of Figure 1, with the telescoping legs retracted to lower the table top;

Figure 5 is a top plan view of the table, with the top thereof shown in broken lines, illustrating the control mechanism for raising and lowering the supporting legs;

Figure 6 is a top plan view of the table top, with the top surface forming flexible members removed in part, and with one half of the top being reduced to the minimum diameter and the other half in a form which is partly elliptical and partly circular;

Figures 7 and 8 are top views of a portion of the deformable flexible members forming the table top surface in a retracted and expanded condition, respectively;

Figure 9 is a fragmentary, vertical, sectional view of the table top, on an enlarged scale, showing the mechanism controlling the deformation of the table top;

Figure 10 is a fragmentary top plan view of the mechanism shown in Figure 9, the table top being removed;

Figures 11-16 are diagrammatic representations of the various forms that can be given to the deformable outer portion forming the table p;

Figure 17 is a side elevational view of a table constructed according to a modified embodiment of the invention, with the table top being shown in lowered position and retracted;

Figure 18 is a side elevational view similar to that of Figure 17, with the table top raised and extended;

Figure 19 is a vertical sectional view of a half of the table of Figure 17, on an enlarged scale, and with the top in lowered and retracted position;

Figure 19a is a vertical sectional view, similar to that of Figure 19, but of the other half of the table, with the top raised and extended;

Figure 20 is a fragmentary top plan view of the table of Figure 17, on an enlarged scale, and

with the flexible cover removed;

Figure 21 is a detail vertical sectional view illustrating the safety device insuring the return of the table top to its circular form of minimum diameter prior to change in the shape thereof;

Figure 22 is a fragmentary, enlarged, top plan view of the elastic joint connecting the outer ends of the slidable rods forming the table top of the table of Figure 17;

Figure 23 is a view of a modified elastic joint;

Figures 24 and 25 are a plan view and a side elevational view, respectively, of still another elastic joint; and

Figure 26 is a diagrammatic view illustrating various forms or shapes which can be given to the extensible table top.

Referring in detail to the drawings, and initially to Figures 116 thereof, a table constructed according to the invention is there illustrated. The table includes a top having a rigid central portion formed o a circular plate I, 9.1 weed or other will-decrease (Fig. 7-).

rigid material. Four equally spaced apart, radially extending arms 2, are fixed to the lower surface of plate l and extend outwardly beyond the periphery of the latter. A vertical, downwardly opening tubular member 3 is fixed, by suitable means, to the outer end .of each .of arms 2, and slidably-receives a tubular elongated leg forming member i. The tubular members 3 and 4 together constitute a telescopic leg, and a suitable plug, or other foot forming member is carried by the lower end of each of the tubular members 4. An annular flat sheet metal rim 5 (Fig. 9), is supported on the arms 2 and extends outwardly beyond the rigid center portion l to provide a supporting ledge, or surface, for the deformable portion of the table top, when the latter is contracted.

The deformable portion of the table top preferabl includes a plurality of thin corrugated or undulating ribbons 6, formed of steel or any other similar resilient material, placed on edge and arranged concentrically. Each of the ribbons 6 is united to the ribbons disposed on the opposite sides thereof by spaced rivets l alternately securing each ribbon first to the adjacent ribbon on one side thereof and then to the ad jacent ribbon on the other side thereof (Figure 8). The top edges of the ribbons G are coplanar =and'-provide a substantia'lly annular radially deformable surf-ace about the central plate i When the deformable surface is contracted, that is the condition in which the circumference or perimeter is reduced to a minimum, each ribbon 5 will flex and the corrugations or undulations thereof will increase in depth while the spacing between the ribbons When the deformable portion of the table top is extended, or adjusted to a condition in which the perimeter is enlarged, the individual ribbons will flatten out, however, the spacing between the ribbons will continue to be substantially small (Fig. '8) to thereby provide a suitable table top.

Thedeformableportion of the table top is surrounded b an extensible frame, or girdle (Fig. 3), formed of a series of arcuate, elongated'members Bend 9 having suitable s' lidable connection wi-theaoh other. Each of the arcuate members 3 and 9 is fixed at its center to the outermost one of the ribbons and each of the members :9 is formed with a pair of elongated slots II extending from the center thereof toward the opposite ends. The members 8 are provided with pins-or bolts iii fixed at -the opposite ends thereof, which sl-idably engage in the "slots -!-l of the members Q-between which members a are alternately disposed. The members-Band S-thenform a continuousband, frame or girdle surrounding the periphery of the deformable portion of the table top and capable of being extended and --retracted to vary the length and shape of such periphery.

The table top including the fixed or rigid central plate I, the deformable portion formed of theribbons '6, and the surrounding band or girdle formed of arcuate-members 8 and 9 is covered by an elastic sheet i2 formedof any material having sufficient elasticity 'to conform 'to the various possible shapes and dimensions of the table top without formingfolds or wrinkles.

The -mechanism-for contracting and extending the deformablejportion of the tabletop, andfor supporting the latter while in its extended condition-includes acircu'lar housing "2! fixedbelow central plate I and having -a bottom wall 4 and a cylindrical side wall. A vertical shaft 18 is disposed in the center of the housing 2! and rotatably journalled at its opposite ends in the plate 5 and a depressed portion of the bottom of housing 2!. A plurality of circumferentially spaced openings are formed in the side wall of housing 2! immediately below plate -l, and a.

plurality of radially extending rods I3 extend slidably through these openings. Each of the rods is .is. formed with an outer horizontal portion located just below the bottom surface of plate i, and extending through the housing side wall for attachment at its outer end to the center of one of the arcuate members 3 and 9 by a suitable bracket I4. That is, a rod I3 is provided for each of the arcuate members 8 and :9, and the outer portions of these rods underlie the ribbons 5, for supporting the latter, when the deformable portion of the table top is extended. Each of the rods i3 is downwardly offset, as at i'-a, intermediate its length to provide a horizontal inner portion 1 8b which is spaced-down wardly :fr om :the-outer-portion thereof. As seen in Fig. 9, the-distanceeach of the several rods 4'3 is-oifset varies so that the inner ends -i 3fi-thereof may cross without interfering with each other. A pluralit of vertical shafts '23, spaced-equally from thecentral shaft i=3,-are fixed betw-een the plate t and the bottom of housing 2-1, and groove rollers '22 are rotatably carried by shafts at various heights :for receiving :the inner portions 13b of the respective rods. The rods- 'lS-are thereby supported for radial movement *by the openings in the housing side-wall through which they slidably extend, and by the rollers 22-.

The adjustment of the form and dimensions of the deformable portion of the table top'may be eifected most simply by pushing or pulling upon the peripheral frame formed of relatively slidable' members 8 and '8, however, it is desirable'toprovide'a mechanical device for effecting suchadjustment. A suitable-mechanism for the purpose is illustrated in Figs. 2, Band 9, and in: cludes a telescopic shaft EE-rotatable in housing 21 and extending outwardly therefrom to the edge of the tabletop. A crank handle .is secured to the outer end of the telescopic shaft f5. and the latter' may be extended and retractedmanually to -maintain the handle in a convenient position relative-to the edge of'the table top as theforrn and dimensionsof the latter are varied. ,A wormv I'S-is fixed on the inner end of shaft 15. and meshes with a worm wheel il' iixeduponcentral shaft i8. Anelongated pinion is is alsodfi xed the several rods 13 either ontwardlyor inwardly with respect to central plate I, depending upon the direction of rotation of shaft .15. Since the outer ends of .rods i3 are secured to members:

8 and Bforming the peripheral. frame, and since these members are in turn secured to the outer most of the joined ribbonSEi, .radial ,movement of rods is will result in the vextension andconw traction of the deformable portion of the table tions along the lengths of the inner portions I3b' of the rods, any other form may be given to the table top, for example an elliptical form, and the movements of the rods by rotation of pinion l9 will result in a change in the dimensions of this initial form while retaining a similar shape.

Where it is desired to change the shape of the table top, as well as the dimensions thereof, in response to rotation of shaft l5, a plurality of pinions of varying diameter (not shown) may be substituted for the single pinion I9 of the illustrated device, so that the racks meshing. with the pinions of different diameter, and the associated rods will be moved radially varying distances for each revolution of shaft I8 to which the pinions are fixed. In this latter form of the invention, the contour of the perimeter of the table top will vary as the deformable portion is enlarged and retracted.

Furthermore, it is possible to obtain various contours for the table top by substituting a plurality of pinions for the single pinion IQ of the illustrated device and by interposing suitable clutching means between each of the pinions and shaft l8, so that certain of the pinions may be selectively disengaged. With this construction, certain of the rods |3 may be moved outwardly or inwardly while others of the rods remain immobile to thereby make possible the realization of any desired contour.

The same result may be achieved by other nonillustrated contrivances, such as making the respective racks 2|! longitudinally slidable relative to the inner portions |3b of the rods, and provided with locking means for selectively holding the racks fixed relative to the associated rods. Such locking means may be in the form of a set screw carried by either the rack or the rod and engaging against the other, or in the form of spaced recesses formed in the rack for receiving a movable latching member carried by the rod and actuated by hand or other suitable means.

In Figs. 1, 4, 5 and 9, a device is illustrated for varying the height of the table top by varying the telescoping of tubular members 3 and 4 forming each of the supporting legs. Each of the tubular members 4 is formed with a pair of diametrically opposed longitudinally extending slots 28 through which a horizontal shaft fixed in member 3 loosely extends. A pulley 21 is rotatable on this latter shaft. A second pulley 29 is rotatably carried by a horizontal shaft fixed across the upper portion of tubular member 3; and a flexible cable 24 extending radially from the housing 2| for each of the adjustable legs is trained over pulley 29, then downwardly into the leg and under pulley 21, and finally, extends upwardly for attachment at 26 to the tubular member 4. The cables 24 at their inner ends pass around pulleys 30, rotatable about vertical axes within housing 2| (Fig. 5), about grooved pulleys rotatable on shaft I8, and finally attach to the end of lever 32 which is pivoted intermediate its length on shaft I8. The lever 32 extends radially outward through slot 34 formed in the housing 2|, and is offset upwardly at its outer end as at 3| (Fig. 4) and provided with a suitable knob 33 at its outer end. It is apparent that when knob 33 is moved in the direction of the arrow of Fig. 5, the several cables 24 will be uniformly tensioned to move pulleys 21 upwardly towards the top ends of tubular members 4, thus effecting a lengthening of the legs and raising the table top. Suitable notches (not shown) may be provided in the edge of slot 34 for receiving lever 32 and retaining the latter in any of several angularly adjusted positions, to thereby retain the table top at the selected level.

Referring now to the embodiment of the invention illustrated in Figs. 17 to 26, the tablethere shown includes a table top formed of a circular disc or plate 44 having a pivot or bolt. 58 extending upwardly from the center of thetop surface thereof. A stiffening circular plate 36 is fixed on the top end bolt 58 and. underlies.

the central portion of a'-relatively thin sheet metal disc 35. A plurality of radially extending and slidable rods 31 rectangular in cross-section underlie the thin disc 35 and are connected together at their inner ends by flexible strips 38 pivoted at their opposite ends to the inner endsof rods 31. An upstanding wall or flange 45 is secured to the periphery of disc 44 and the rods.

31 slidably rest upon the'top edge of wall 45. The outer ends of the rods 31 are inter-connected by a suitable flexible extensible structure, which in the form illustrated by Fig. 22, includes an open ended conical member 84 having an arm 38 extending from the side thereof which is pivotally connected to the outer end of each of the rods 31. The conical members 84. telescope into each other, and a plurality of elongated, flexible, curved strips 4|, overlapping at their ends and slidable relative to each other, extend through the conical members 84.

In Fig. 23 a modified flexible and extensible structurefor connecting the outer ends of rods 31 is shown. This modified structure includes the flexible, relatively slidable strips 4| described. above and, in place of the conical members 84,,

a continuous coiled flat strip 40 is wrapped around the strips 4| and provided with radial lugs at suitable intervals for pivotal attachment to the ends of rods 31 similar to the arms 38 extending from members 84.

InFigs. 24 and 25 still another form of struc-.

ture for connecting the outer ends of rods 31 is illustrated. This latter structure once again in-, cludes the flexible, relatively slidable strips 4|;-

and a flat coiled spring member 42 extends about strips 4|. The coiled spring member 42 is connected to the ends of rods 31 by the lugs or eyes 43 which extend from spring member 42 at suitable intervals and pivotally receive bolts extending through the outer ends of rods 31.

An elastic cover member, of substantial thick ness, overlies the entire top structure and is drawn under the peripheral edge structure join ing the outer ends of rods 31, as seen in Fig. 19a. The cover provides a smooth top surface when rods 31 are retracted under the metal. disc 35 or when they are extended outwardly for in-' creasing the area of the table top.

The mechanism for effecting radial movements of rods 31, and hence the changes of form and dimensions of the table top, is disposed inthe space between the top discs 35 and 36, and the lower disc 44. This actuating mechanism com-- prises a plurality of angularly spaced, radiallyextending screws or worn spindles, illustrated as twelve in number, rotatably journalled at their u r end n b arings s u e 9 e inner.

awe-set die 35* adjacentf the-periphery of the latter. A or follower; 19 threadedly engages; each of the-wormspindles' GBfand is fixed to aradial snee- Elliot inverted T 'sh'aped cross-section,

which slide is supported and radially; guided by a 'snitable iipwardlyr'opening notch formed: in the weimsa Each of the slidesififl'"is'pivotaIIy connectd at its euterene; met 51 to 'the center of one of the flexiblefstrips 'i formin'g'th'e periph er'al s ;t'r1mtureof the table top; and there are as nfrany flexible" s'tripsi irlt as thereSareworrn spindles'g' lfif" The member =orroes are a" multiple ofthemimber of worm spindles 46, in theillustrated ent'worrn spindles; By reasonof'the con- 'njof slides EB-to the flexiblestrips 4 l rotation' of the worm spindles ifi, effecting radial movement of the-associated-slides; Will result'in raj a1 iovem'entof rodsfl'thearea of there- Tlie'drive-for rotating the warmspindlessfi is s ii es-"5 willbe imovedradially atdifierentrates for" ach'ieving irregtil'ai' or 'non--circu1ar contours for" H tabletop; The driver tr e wor'n'l' spin- (l lies ncludes. afhollow' shaft 52' secured to the ii n ier end of each of' 'ten of the worm spindles QG'f'FiQ'; 20) *and formed with'alongitudinaHy extending 'slot'" 53 (Fig-r 19) The hollow shaftsbir' thespindles indicated by letters C, F; IandL (Fig 20) have pinion; d andEE rotatable thereyjaoentthe outer; and inner' ends thereof; 'Ifl -e, 'eniainine" hollow'shafts are each provided with a' single rotatable pinion E'Wadjacent'the onterend'thereofljand the twospindles A and'B rovided with pinions'i i fixed to their inner Adisc'li-ilis rotatablycarried by sleeve 5"! which is mounted upon centerfbolt' 58'. The rotatable disc 55 underlies the pinions E and'55 and is providedwith" two concentric series of spaced 7 In place ofthe openings formed'irr disc" Sfiior receiving the pinion teeth,

arse-se could be formed with two concentric- 52 es ofgearteeth' extending-from the top surfaceHther'eof and meshing with the pinions 54* and ssa re the illustratedform; diam'eterofthe circle;

upon which inner series'of openings are disposed, meshingavith pinions 55', is one-half the diameter the enter circle of openings meshing with pi'riions 54" sot'hat the latter-pinions are rotated at t wice'th'e speedofpinions 55; The speed at wh h therelated worm 'spindle will be rotated de pends" onwhich of thepinions see *Bijirr the casewliei-*e-the-hollow shafthas both pinions thereon, is fixed relative to the-shaft for effecting rotation thereof. The'ceuplingoi the pinions 54 and 55 to tlieh'ollow shaft 52'is eifected'by a key; Be ore key til both carried by a longitudinally sesame rod fi-l' disposed 5 within "nollow' 5:2;-

The keys" 59"and 60 extend through the slot 53 foirne'd in shaft 52 -In order to efiect longitudinal displacement of slidable-rods 6!; a strap or lug E3 -is'seoured to the inner end I ofeach rod" 6 I and links 6? are the pindl'esM at one speed and" others at one oipenings in whiohth eteeth ofpinions' 5'4 "and'55f respectively; mesh.

' Swinging of" tothe-axisof the latter; as shown'in broken 7 lines, and the'shaft 94;is pulled-outsothat the 8" pivotally connectedat "one end to lugs 63 and ati the other; end to-radially extending flanges 85 formed? upcir' rotatable bushing 51 carried by central ;bolt 53.- Itis "apparent that rods 61 will bedisposed" in" their outermost positions whenthe linkselare disposed' radially; and that as bushing 51* is rotated in either direction the links 62 will pull rods fi-linwardly towards" the--- c enter of the table. A leverarni 65; extendsradially from the bottom of bushing 51 towardsthe outer edge of the-table top andisprovided with an operating knob 86 at' its outer end-. knob 86 will control the posmns of rods 6iand'thereby-deterinine which'of the pinions '5 and 55* are locked to" the respective shafts for rotating the related worm spindles The positions and lengths of" keys 59* and 60; with respect to the-lengths'of the several'rods G1, vary from'rodto rod (Fig: so thatthemov'ein'ents of the respective rods 65 required for clutching or unclutching pinions 54- and tothe related shafts will vary from shaft to shaft. Therefore, a' given angular displacement or :i actuating lever ESJand thus of'bushing' 5'?" may result in some of the spindles being driven by pinion 5% meshing with disc 56, some 01" the spindles being driven by pinion 55; and still othersof the. spindles, beingt unaffected by reason.

of the idling of both pinions 54'and 5 5 on'thev related hollow shafttzl Thejmovenie'nt' of slides fiil for ei'ztending or retractingith'etabletop, will thus depend upon the position of lever, fili an'di byvarying the position of the latterahd rotating 5 disc; severiousshapes anddimensions. can be given to the table top.

The mechanism for rotating disc 5s'incliids a hollow shaft mtextending sli'dably over one of the worm-spindles 46 (Fig. 19-) and non-rotatablycoupled to the latter by a key 31- engaging in slot- 95formedin the-spindle. A-cranklllis pivoted at 93"to the outer end'of hollow shaft- Q5; and. when operative is disposed at right angles crank-1 will clear the table edgew-hen rotated; Wheninoperative, the: shaft 8 is moved inwardly; and the crankr92' is folded under the table: top, It is apparent'that rotation of hollow shaft fifigkeyed to one of the spindles t5, wilrefiect rotation of disc iiiifwhen' eitherof the pinionsi 54 or; 55ers keyed 'to the hollow shaft 52"'beingz driven; 'The rotation of 'disc' Efil-will-thenefiect:

, rotation of: all the other pinion's meshed there v with:

Referring to Figure 20; it'will b'noted that on the spindles exclusive of A and B, only four' spindles, C, F; I and L areprovided with keys 59; and and the remainder are provided with only; keys" 59? The keys are so positioned relative to. therods 6'! upon which they are" mounted that for each ofvfcur positions of lever either-pin ion 54, or pinion 55 if there i's'one, or neither of the=pinions will'becoupled to"therelated hol of the pinions are coupled, on each of the spindles, for each of four positions of lever 65:

2nd position SWorn- 1st poslition (half-circle 3rd position in a, 1

p e (circ c) areigigsg (ellipse) mangle) 54 54 54 54 54 54 54 54 54 54 55 54 54 54 none 54 54 54 none 54 54 54 55 55 54 54 54 none 54 54 54 none 54 55 55 none 54 none none none 54 none none none 54 55 55 The keys 59, 60 are so arranged on rods 6! that with the lever 55 in the position shown in Fig. 20 all of the pinions 54 are engaged while the four pinions 55 are disengaged. If the original circumference of the table top is the circle defined by letters a, b, c, d, e, f, g, h, i, 7', k, and Z, of Fig. 26, and the disc 55 is rotated in the direction of the arrow on Fig. 20, all of the slides 55 will be simultaneously moved outwardly an equal distance so that the adjusted area of the table top will be increased, although remaining cir cular, and the new perimeter will be defined by letters or, b2, 02 R2 and Z2 (Fig. 26).

Starting from the same reduced circular shape defined by a, b, c k, and Z, and displacing lever 55 through an angle of 30 from the position shown in Fig. 20, pinions 54 on spindles A, B, C, D, E, F, G, and H will remain engaged, the remaining pinions 54 being disengaged, and pinions 55 only on spindles I and L will be en gaged. Rotation of disc 55 will now result in the ends of the several spindles, still having engaged pinions 54, being moved to oz, b2, 02, d2, ea, f2, g2 and h2, while spindles I and L will move to positions i1 and Z1, respectively, and spindles J and K, having no engaged pinions, will be immobile at :i and k. The table top will thereby be given a shape which is semi-circular on one side and semi-elliptical on the other side.

If the lever 65 is displaced 60, from the position shown in Fig. 20, and the disc 55 subsequently rotated, only those pinions 55 on spindles A, B, G and H and those pinions 55 on spindles C, F, I and L will be engaged to their respective shafts. The table top would then assume a perimeter defined by letters a2, b2, 01, d, 8, f1, 92, hl, 2, 7', 7c and Z1, which letters define a complete ellipse.

Finally, if the lever is displaced 90 from the position of Fig. 20, only those pinions 54 on spindles A, B and E, and those pinions 55 on spindles C, F, I and L will be engaged. Rotation of disc 55 will then effect the movement of certain of the slides 55 to obtain the outline defined by az, b2, 02, d2, (:2, f1, 9, h, i, 7', k and 1 that is a shape approximating a right angle triangle with curved sides.

It will be understood that the number of spindles 56 is not limited to the number shown, and that the positions of the coupling keys may be varied as well to obtain other combinations for providing other table outlines.

With the embodiment shown, it is desirable that the table top be returned to the reduced diameter circular form prior to actuating lever 65 for changing the positions of the keys e and 60. To return the table top to this preferred starting position disc 55 is rotated in the direction opposed to the arrow of Fig. 20p

In order to prevent actuation of lever 55, when the top is in a condition other than that of the reduced diameter circular form, a stud 66 pro jects downwardly from lever 65 and is received in a selected one of the openings El formed in the fixed lower wall of the table top structure. The openings 5'! are disposed at positions corresponding with each of the 30 spaced apart operative positions of lever 65 and prevent actuation of the latter unless the lever may be lifted to remove stud 65 from the opening 61 in which it is engaged. To prevent lifting of lever 65 when the table is not in its minimum diameter circular condition, a vertical pin 68 is slidably carried by a suitable frame fixed adjacent each of the spindles C, A, B and L and underlies a flange of the slide 50, actuated by such worm spindle (Fig. 21). The pin 68 is constantly urged downwardly to a'position abutting the top surface of lever 65 by spring 10 and is prevented from moving upwardly by the flange of guide 55 whenever the guide is extended. An opening 59 is formed in the flange of guide 55 (Fig. 19) and registers with pin 68 when the guide is in itsfully retracted position to receive pin 53 and permit upward movement of lever 65 against the force of spring Ill.

The table top described, and illustrated in Figures 17-26, is also vertically-adjustable, by reason of the construction of the supporting base. The supporting base includes four lower leg portions 52 having right angled brace members 15 extending therebetween. Four upper leg portions ll are fixed'at their upper ends to the lower circular disc 44 of the table top structure and are cross-braced by members 14 which are vertically aligned with bracing members 15. A housing l5 cross-shaped in horizontal section is provided with a top wall through which the upper leg portions ll slidably project, and a side skirt which extends downwardly over the lower leg portions l2.

Suitable means are provided for moving the upper leg portions, and hence the table top structure, upwardly and downwardly relative to the lower part of the supporting base formed by leg portions '52 and bracing 15. The preferred means illustrated includes toggle joints 13 interposed between each leg of the cross-bracing l5 and the underlying leg of cross bracing 5. The toggle joints is are adjusted in their height by the rotation of horizontal worm spindles Tl, each having a pair of oppositely threaded portions, and carrying nuts l8 arranged at the lateral pivots of the joint. The spindles T! are rotatably journalled at their outer ends in bearings 19 car ried by the skirt of housing 15 and at their inner ends in a frame 85 at the center of the base. The four right angularly related spindles T! are connected for simultaneous rotation by the meshing bevel gears ill fixed to their inner ends. One of the spindles ll is provided with an operating crank 82 hinged to its outer end which may be rotated to effect the raising or lowering of the table top.

Having thus described and illustrated several specific embodiments of the invention, it is to be understood that changes and modifications therein, obvious to those skilled in the art, may be effected without departing from the scope of the invent on as defined in the app claims.

t r11 i W'hat Claim-1194511113 inizentionz-aandudesire to secure byiLet-tersrPatenti is:

e1. :':An aextensible stable comprising an .-iinde- "iormable central :E'por tion, wanlrannular :rportion :-cornp0sed:of radiallyomovable elements;actuatz'inglzmembers sustained'rbys saidcentral= portion,

1 :radially 'emovable-with3respect tossaid: central r 'por-tion and'connected wirth they-rim =ofsaid-ian- "snular'iportion,gtransmission means :adapted to 'zmover'saidaactuating:members .radially'andaan uoperating: memberi foresaid: transmissiomzmeans,

z-lsaid :transmissioncmeansfsbeingscharacterised in z-lthatrthey comprisezcoupling imemberinterposed between (said roperatinezmember sand; the related 1- actuatingnmembers. and zt means i to render said (coupling members: :operative: as desired; r withi the result ;;that' the radially cmovable: members r are displaced by runequal amountineaccordance with z'the table outline tobe obtained.

iZZJxAIl" extensible .iitable :according to claim .1 wherein the; said 'aactuating :members :comprise z radially arranged rotatablewvorm "spindles, anonl rotatable :nut one each worm s'spindle connected with:a group of'radially movable-elementslin combination With idleipinions mounted'a'onaeach'worm sspin'dle, wherein the operativexmemberrfor' the transmission means comprises a'disc formed with atdoubleaset:of teethgeach setipermanentlyzmeshing with at most one :Of :the pinionsmountedon each .worm spindle; and: meansradapted' to. rotate 4 :saidtdisc as desired-and wherein the transmission :means comprise coupling members r's'lidable" scoaxia'llylzwith said spindles adapted to couple each spindlewvitheither pinionrcarried therebyvorwith "none'of J-them depending: on: the-position of said members: andmeans ":to'a simultaneously displace :ls'aid; coupling members, said: screw spindle-couggpling members 'being so designed. that .saidspindles can; :be:coupled=--with21the-pinions according to various combinations, i thus -bringingabout u-various deformationsi'aoirthe table outline as the double gear:- discisn'otated.

3. An zwextensible :table r raccording 1: to .-'jclaim 1 wherein n the radially nmovable elements :consist of slidable bars arranged radially interconnected at their inner ends by flexible strips, lugs pivoted V v :to-the outer endszof said barsv and anrextensible lztie connecting 1 saidglugsawith ione anotheraeand connected at intervals to'the actuating means of the radially movable elements.

4. An extensible table according to "claim 1 wherein the actuating means of the radially movable elements comprise radially arranged'rotatable an'daxially unmovable worm spindles-laxisally movable DOD-IOtfitfiblGiIllltS on said worm spindles," while theoperating member consists in mounted on said worm spindles, a disc 'withseveralsetsof teeth;each set of te'ethbeing' in" permanent' meshing" engagement-with-at:most:one oi the pinions mounted'on each worm' spindle, movable members adaptedto'couple said 'pinions with the relative worm spindles and means td'displace said movable'members according to various I combinations.

.a hollow shaft slidably mounted on and splined with one of said spindles, in combination-with a crank pivoted-tonne end-of'said hollow shaftand with means to transmit the rotation of said worm spindle to the' other worm spindles 'withvariable gearratios, said' means comprising "idle, pinions MEGIEs.

REFERENCE-S- CITED .Theiollowing. references are. ofrecordinethe fileflo'f this patent:

UNITEDK'ST'ATES EPATEN I'S Number Name Date 606,984 'Poupon "June*2l;'1898 FOREIGN PATENTS N umber 'Country Date I 8493989 France 'Decj5, 1939 

